KR101922224B1 - Control method of street light - Google Patents

Abstract

The control method of a street light according to the present invention is characterized in that even if an object is recognized by one of the plurality of node street lamps, the lighted area activation signal is transmitted to the adjacent communication streetlights more rapidly through the predetermined central control streetlight, The front streetlights in the direction of movement can be turned on faster.

Description

Control method of street light [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of controlling a streetlight, and more particularly, to a method of controlling a streetlight that can control the brightness of streetlights installed on a road more quickly and efficiently.

2. Description of the Related Art Generally, a plurality of street lamps are installed at a predetermined distance from each other as lights for illuminating a road for safety of pedestrians and traffic. In particular, a plurality of streetlights illuminate the road at night traffic, thereby ensuring safe operation.

However, in the existing road lighting systems, since a plurality of street lamps are always turned on or off at the same brightness regardless of presence or absence of a vehicle or a pedestrian, there is a problem in that the amount of electric power applied to the street lamp is significant, .

Korean Utility Model Registration Bulletin 20-0258569

It is an object of the present invention to provide a control method of a streetlight which can control the streetlight more quickly and efficiently.

A method of controlling a street light according to the present invention includes the steps of: detecting an object by a motion detection sensor of a first node streetlight among a plurality of node streetlights; Wherein the signal processing unit of the first node street lamp determines whether the sensed object is a new object and generates communication information according to the new object if it is determined that the object is a new object; Wherein the wireless communication unit of the first node street lamp transmits communication information according to the new object to a predetermined central street light among the plurality of node streetlights; Wherein the central control streetlight comprises communication streetlights to communicate among the plurality of node streetlights according to the communication information and transmits a lighting area activation signal to the communication streetlights through wireless communication; And the communication streetlights include a step of lighting in accordance with the received on-area activation signal.

The control method of a street light according to the present invention is characterized in that even if an object is recognized by one of the plurality of node street lamps, the lighted area activation signal is transmitted to the adjacent communication streetlights more rapidly through the predetermined central control streetlight, The front streetlights in the direction of movement can be turned on faster.

1 is a block diagram schematically showing a control system of a streetlight according to a first embodiment of the present invention.
2 is a flowchart showing a control method of the streetlight according to the first embodiment of the present invention.
FIG. 3 is a view showing a state in which the control of the streetlight according to the first embodiment of the present invention is implemented.
4 is a block diagram schematically showing a control system of a streetlight according to a second embodiment of the present invention.
5 is a flowchart showing a control method of a streetlight according to a second embodiment of the present invention.
6 is a view showing a state in which the control of the streetlight according to the second embodiment of the present invention is implemented.
7 is a flowchart showing a control method of a streetlight according to a third embodiment of the present invention.
8 is a view showing a state in which the control of the streetlight according to the third embodiment of the present invention is implemented.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a block diagram schematically showing a control system of a streetlight according to a first embodiment of the present invention.

1, a control system for a streetlight according to a first embodiment of the present invention includes a plurality of node streetlights 10 to 50 installed on a road, a plurality of node streetlights 10 to 50, And a central control street lamp 60 communicating with the central control station.

A plurality of street lamps spaced apart from each other on the road at predetermined intervals are referred to as node streetlights 10 to 50.

The central control street lamp (60) is installed between the plurality of node streetlights (10-50). The plurality of node streetlamps 10 to 50 are set in a group by a preset number, and the central controllable streetlamp 60 is set in advance by at least one of the groups.

Hereinafter, in the present embodiment, the plurality of node streetlights 10 to 50 are five first, second, third, fourth, and fifth node streetlights 10, 20, 30, 40, The central control street lamp 60 is installed between the second node streetlight 20 and the third node streetlight 30, for example. However, the present invention is not limited to this, and the number of the plurality of node streetlights 10 to 50 and the number and position of the central control streetlights 60 can be variously set.

Both the plurality of node streetlights 10 to 50 and the central control streetlight 60 can sense an object on the road.

A streetlight receiving the light zone active signal from the central control streetlight 60 among the plurality of node streetlights 10 to 50 is referred to as a communication streetlight.

The control structures of the plurality of node streetlights 10 to 50 are all the same. The plurality of node streetlights 10 to 50 include a motion detection sensor, a wireless communication unit, a signal processing unit, and a lighting control unit, respectively. Hereinafter, only the control structures of the first, second, and third node streetlights 10, 20, and 30 will be described in detail.

The first node street lamp 10 includes an operation detection sensor 14 for detecting an object on the road, a signal processing unit 12 for processing a signal sensed by the operation detection sensor 14, And a lighting controller 13 for controlling the lighting of the first node street lamp 10. The lighting control unit 13 controls the lighting of the first node street lamp 10,

The second node street lamp 20 includes an operation detection sensor 24 for detecting an object on the road, a signal processing unit 22 for processing a signal sensed by the motion detection sensor 24, And a lighting controller (23) for controlling lighting of the second node street lamp (20).

The third node streetlight 30 includes an operation detection sensor 34 for detecting an object on the road, a signal processing unit 32 for processing a signal sensed by the motion detection sensor 34, And a lighting controller 33 for controlling lighting of the third node street lamp 30. The lighting control unit 33 controls the lighting of the third node street lamp 30,

The fourth node streetlight 140 and the fifth node streetlight 150 have the same configuration, and a detailed description thereof will be omitted.

The motion detection sensors 14, 24, and 34 detect the presence of an object in a sensing area set for each of the plurality of node streetlights. The sensing area is set differently for each of the plurality of node streetlights. The motion detection sensors 14, 24, and 34 use a UWB (Ultra Wide Band) Doppler radar sensor, for example. The object includes all moving objects such as a vehicle, a bicycle, a motorcycle and a pedestrian, and will be described as an example of a vehicle in the present embodiment. The motion detection sensors 14, 24, and 34 can detect the presence or absence of the vehicle, the entry of the vehicle into the sensing area, and the traffic congestion in the sensing area in the sensing area. The motion detection sensors 14, 24 and 34 transmit the coordinate values of the object to the signal processing units 12, 22 and 32.

The signal processing units 12, 22, and 32 of the first, second, and third node streetlights 10, 20, and 30 detect the object coordinates Enter the value.

The signal processing units 12, 22 and 32 of the first, second and third node street lamps 10, 20 and 30 are connected to the signal processing units 12, And determines whether the object is a new object or an existing object according to an object coordinate value. Further, the signal processing units 12, 22, and 32 calculate the speed and the moving direction of the new object according to the object coordinate values. The signal processing units 12, 22 and 32 generate the communication speed and the direction of movement of the new object as communication information and input the communication information to the wireless communication units 11 and 21 and 31. [

The wireless communication units 11, 21 and 31 of the first, second and third node streetlights 10, 20 and 30 transmit the communication information to the wireless communication unit 61 of the central control streetlight 60, Lt; / RTI > The wireless communication units 11, 21, and 31 allow nearby streetlights to perform short-range wireless communication. The short-range wireless communication includes RF communication and Zigbee communication. The plurality of node streetlights are continuously installed at a predetermined distance at a distance of up to 2 km on the road, and the RF communication is suitable for communication between the node streetlights because communication is possible within a distance of up to 10 km. In addition, the plurality of node streetlamps are installed at a distance of 50 m or less on the road, and the Zigbee communication is suitable for communication between the node streetlights because communication is possible within a distance of 100 m maximum. However, the present invention is not limited to this, and it is possible to use various communications such as ZigBee communication and ZigBee communication.

The lighting control sections 13, 23 and 33 of the first, second and third node lamps 10, 20 and 30 are connected to the first, second and third node lamps 10, 20, To control the dimming value of the light source (not shown).

In the central control street lamp 60, at least one or more of a plurality of streetlights are preset. For example, one or more of 30 to 50 streetlights may be set.

The central control street lamp 60 includes a wireless communication unit 61, a signal processing unit 62, a lighting control unit 63, a motion detection sensor 64 and a central control unit 65. The central control street lamp 60 differs from the structure of the plurality of node streetlights 10 to 50 in that it further includes a central control unit 65 for calculating the size of the lighting area.

The wireless communication unit 61 of the central control streetlight 60 transmits a lighting area activation signal to the communication streetlight among the plurality of node streetlights 10 to 50. The wireless communication unit 61 of the central control streetlight 60 performs short-range wireless communication with the communication streetlights, and the short-range wireless communication is the same as the communication method of the node streetlights.

The signal processing unit 62 of the central control street lamp 60 receives coordinate values of an object when the motion detection sensor 64 detects an object and processes the coordinate values.

The lighting control unit 63 of the central control streetlight 60 controls the dimming value of the central control streetlight 60 to light up.

The motion detection sensor 64 of the central control street lamp 60 detects the presence of an object in a preset sensing area. The object includes all moving objects such as a vehicle, a bicycle, a motorcycle and a pedestrian, and will be described as an example of a vehicle in the present embodiment. The motion detection sensor 64 transmits the coordinate value of the object to the signal processing unit 62.

The central control unit 65 of the central control street lamp 60 calculates the size of the light zone according to the speed and direction of the new object transmitted from the wireless communication unit 61.

2 is a flowchart showing a control method of the streetlight according to the first embodiment of the present invention. FIG. 3 is a view showing a state in which the control of the streetlight according to the first embodiment of the present invention is implemented.

Referring to FIG. 2 and FIG. 3, the control system of the streetlight according to the first embodiment of the present invention is as follows.

Hereinafter, in the present embodiment, an operation sensing sensor 14 of the first node street lamp 10 among the plurality of node streetlights 10 to 50 senses an object, for example, will be described. However, the present invention is not limited thereto. It is also possible that another node streetlight other than the first node streetlight 10 can sense an object, and the central control streetlight 60 can sense an object.

When the motion detection sensor 14 of the first node street lamp 10 detects an object, coordinate values of the object are input to the signal processing unit 12 of the first node streetlight 10. (S1)

The signal processing unit 12 of the first node street lamp 10 determines whether an object exists based on the inputted coordinate value.

The signal processing unit 12 of the first node street lamp 10 determines whether the object is a new object or an existing object when it is determined that the object exists.

That is, if the number of coordinate values of the object inputted from the motion detection sensor 14 is larger than the number of coordinate values of the existing object stored in advance, it can be determined that the object is a new object. If the number of coordinate values of the newly input object is less than or equal to the number of coordinate values of the existing object stored in advance, it is determined whether or not the movement path of the object is continuous by referring to the coordinate value of the newly input object and the coordinate value of the previously stored object . If it is determined that there is continuity of the moving path of the object, it can be determined that the object is an existing object. If it is determined that there is no continuity of the moving path of the object, it can be determined that the object is a new object. In order to determine the continuity of the movement path, coordinate values of an object are stored and managed such that one object has at least two coordinate histories.

If it is determined that the new object is not the new object, execution is terminated to maintain the current state of the plurality of node streetlights.

On the other hand, if it is determined that the new object is the new object, the signal processing unit 12 of the first node street lamp 10 calculates the speed and the moving direction of the new object (S4)

The signal processing unit 12 of the first node street lamp 10 calculates the speed of the new object using the distance difference between the coordinate values of the new object with time and the constant cycle time measured by the motion detection sensor 14 . Also, when the number of the new objects is several, the average value of the speeds of all sensed objects may be used, or the maximum value of the speeds of all sensed objects may be used.

 The signal processing unit 12 of the first node streetlight 10 generates the speed and the moving direction of the new object as communication information and inputs the communication information to the wireless communication unit 11 of the first node streetlight 10. S5)

The wireless communication unit 11 of the first node street lamp 10 transmits the communication information to the wireless communication unit 61 of the central control streetlight 60. In step S6,

That is, the wireless communication unit 11 of the first node street lamp 10 transmits the speed and direction of the new object to the central control street lamp 60.

Referring to FIG. 3, A is communication information transmitted from the first node street lamp 10 to the central control street lamp 60, which is information on the speed and direction of the new object. The communication information may also include information on a node street lamp that senses the new object.

The central control unit 65 of the central control streetlight 60 calculates the size of the lighting area using the speed and direction information of the new object and the physical distance at which the node streetlights are installed.

When the size of the lighting area is calculated, the number of streetlights to be turned on is determined. Once the number of streetlights to be turned on is determined, the number of streetlights to which the central control streetlight 60 should communicate is also determined. At this time, the size of the lighting region can be automatically changed according to the speed of the new object.

The wireless communication unit 61 of the central control streetlight 60 determines a communication address of the communication streetlights to communicate according to the size of the lighting area and transmits a lighting area activation signal to the communication streetlights. )

 The wireless communication unit 61 of the central control streetlight 60 refers to the communication address of the communication streetlights from the communication network database.

Referring to FIG. 3, the communication streetlight is the second and third node streetlights 20 and 30, for example.

3, B represents a lighting zone activation signal transmitted to the second and third node streetlights 20 and 30, in which the central control streetlight 60 is a communication streetlight, and C represents a lighting area activation signal of the central control streetlight 60 And a lighting area activation signal input to the lighting control part 63. [

The second and third node streetlights 20 and 30, which receive the lighting area activation signal from the central control streetlight 60, already have dimming values set to 100% It is in a state of being turned on. On the other hand, if there is no object presence signal input to each of the second and third node streetlights 20 and 30, it is determined that the object presence signal is in the unlit state or the set dimming value and the dimming value is 100% And is turned on. Here, the set dimming value is in the range of 30 to 50%, for example.

On the other hand, the signal processing unit 12 of the first node streetlight 10 determines whether there is a pre-input lighting zone activation signal after generating the communication information (S9)

If it is determined that there is no lighting area activation signal input to the first node streetlight 10, a lighting area activation signal is newly input to the lighting controller 13 of the first node streetlight 10 (S10)

That is, the first node street lamp 10 not only senses a new object, calculates the speed and direction of movement of the new object, and transmits the corresponding communication information to the central control street lamp 60, Since the dimming value of the light source 10 must also be controlled, the lighting area activation signal is input to the lighting control part 13. [

After the signal processing unit 12 of the first node street lamp 10 inputs the lighting area activation signal to the lighting control unit 13, it is determined whether there is a pre-input object presence signal (S11)

If it is determined that the first node street lamp 10 has already input the object presence signal, it is determined that the first node street lamp 10 is already lighted, and the first node street lamp 10 is maintained in the lighted state (S12)

That is, if there is an object existence signal input to the first node street lamp 10, the dimming value of the first node streetlight 10 is set to 100% and is already lighted.

If it is determined that there is no object existence signal input to the first node street lamp 10, the dimming value of the first node street lamp 10 is set to 100%, which is a rated value,

That is, when there is no object existence signal inputted to the first node street lamp 10, since the first node street lamp 10 is in an unlit state or is lit at a predetermined set dimming value, 10 is set to the rated value of 100%. Here, the set dimming value is in the range of 30 to 50%, for example.

On the other hand, if it is determined in step S2 that the object exists, the signal processing unit 12 of the first node streetlight 10 determines whether there is an object presence signal input previously. (S14)

When it is determined that there is no object existence signal input to the first node street lamp 10, an object absence signal is newly input to the lighting control unit 13. (S15)

In the state in which the object member signal is input, it is determined whether there is a pre-input on area activation signal (S16)

If it is determined that there is no pre-input lighting zone activation signal, the first node streetlight 10 is turned on according to a preset dimming value (S17)

That is, the first node streetlight 10 is not turned off, but lights up with the set dimming value, even if there is neither the object presence signal nor the lighting area activation signal input to the first node streetlight 10. Here, the set dimming value is in the range of 30 to 50%, for example. That is, considering the night time or the road safety situation, the streetlight can be turned on even when the object is not detected.

On the other hand, if it is determined that there is the pre-input zone activation signal in the state where the object member signal is input, the dimming value of the first node streetlight 10 is set to 100%

As described above, when the motion sensor of one of the plurality of node streetlights recognizes a new object, communication information is transmitted to the predetermined central control streetlight 160, and the central control streetlight 160 is turned on Area activation signals to communication streetlights.

4 is a block diagram schematically showing a control system of a streetlight according to a second embodiment of the present invention.

Referring to FIG. 4, the control system of the streetlight according to the second embodiment of the present invention is characterized in that the communication information transmitted from the node streetlight sensing the new object to the central control streetlight 160 is the size of the lighting area, Since the remaining structure and operation are similar to each other and different from the embodiment, different points will be described in detail.

The control system of the streetlight includes a plurality of node streetlights 110 to 150 installed on the roads and a central control streetlight 160 communicating with the plurality of the node streetlights 110 to 150.

The node street lamp detecting the new object among the node streetlights not only calculates the speed and direction of the new object but also calculates the size of the lighting area according to the calculated speed and direction of movement.

The central control street lamp 160 is installed between the plurality of node streetlights 110 to 150. The plurality of node streetlamps 110 to 150 are grouped by a preset number, and the central controllable streetlight 160 is set in advance by at least one of the groups.

The plurality of node streetlights 110 to 150 are five first, second, third, fourth and fifth node streetlights 110, 120, 130, 140 and 150, Is installed between the second node streetlight 120 and the third node streetlight 130, for example. However, the present invention is not limited to this, and the number of the plurality of node streetlights 110 to 150 and the number and position of the central control streetlights 160 can be variously set.

Both the plurality of node streetlights 110 to 150 and the central control streetlight 160 can sense an object on the road.

A streetlight for receiving a light zone active signal from the central control streetlight 160 among the plurality of node streetlights 110 to 150 is referred to as a communication streetlight.

The control structures of the plurality of node streetlights 110 to 150 are all the same. The plurality of node streetlights 110 to 150 include a motion detection sensor, a wireless communication unit, a signal processing unit, and a lighting control unit, respectively.

For example, the first node streetlight 110 may include an operation detection sensor 114 for detecting an object on the road, a signal processing unit 112 for processing a signal sensed by the motion detection sensor 114, A wireless communication unit 111 for communicating with the central control streetlight 160, and a lighting control unit 113 for controlling the lighting of the first node streetlight 110.

The second node streetlight 120 includes an operation detection sensor 124 for detecting an object on the road, a signal processing unit 122 for processing a signal sensed by the motion detection sensor 124, And a lighting control unit 123 for controlling lighting of the second node streetlight 120. The lighting control unit 123 controls lighting of the second node streetlight 120. [

The third node streetlight 130 includes an operation detection sensor 134 for detecting an object on the road, a signal processing unit 132 for processing a signal sensed by the motion detection sensor 134, And a lighting control unit 133 for controlling lighting of the third node streetlight 130. The lighting control unit 133 controls lighting of the third node streetlight 130,

The fourth node streetlight 140 and the fifth node streetlight 150 have the same configuration, and a detailed description thereof will be omitted.

The motion sensors 114, 124 and 134 of the first, second and third node lamps 110, 120 and 130 detect the presence of an object in the detection area set for each of the plurality of node lamps, do. The sensing area is set differently for each of the plurality of node streetlights. The motion detection sensors 114, 124, and 134 use a UWB (Ultra Wide Band) Doppler radar sensor, for example. The object includes all moving objects such as a vehicle, a bicycle, a motorcycle and a pedestrian, and will be described as an example of a vehicle in the present embodiment. The motion sensors 114, 124, and 134 may detect whether the vehicle is in the sensing area, whether the vehicle is moving into the sensing area, whether the vehicle is stationary in the sensing area, and the like. The motion detection sensors 114, 124 and 134 transmit the coordinate values of the object to the signal processing units 112, 122 and 132.

The signal processing units 112, 122 and 132 of the first, second and third node lamps 110, 120 and 130 detect the position of the object from the motion sensors 114, Enter the value.

The signal processing units 112, 122 and 132 of the first, second and third node street lamps 110, 120 and 130 are connected to the operation detecting sensors 114, 124 and 134, And determines whether the object is a new object or an existing object according to an object coordinate value.

The signal processing units 112, 122, and 132 of the first, second, and third node streetlights 110, 120, and 130 may calculate the speed and direction of the new object according to the object coordinate values And calculates the size of the lighting area according to the calculated speed and direction of the new object.

The signal processing units 112, 122 and 132 of the first, second and third node lamps 110, 120 and 130 generate the calculated size of the lighting area as communication information, (111) 121 and 131, respectively.

The wireless communication units 111, 121 and 131 of the first, second and third node lamps 110, 120 and 130 transmit the communication information to the wireless communication unit 161 of the central control streetlight 160, Lt; / RTI > Here, the communication information includes the size of the lighting area.

The wireless communication units 111, 121, and 131 allow nearby streetlights to perform short-range wireless communication. The short-range wireless communication includes RF communication and Zigbee communication. The plurality of node streetlights are continuously installed at a predetermined distance at a distance of up to 2 km on the road, and the RF communication is suitable for communication between the node streetlights because communication is possible within a distance of up to 10 km. In addition, the plurality of node streetlamps are installed at a distance of 50 m or less on the road, and the Zigbee communication is suitable for communication between the node streetlights because communication is possible within a distance of 100 m maximum. However, the present invention is not limited to this, and it is possible to use various communications such as ZigBee communication and ZigBee communication.

The lighting control units 113, 123 and 133 of the first, second and third node lamps 110, 120 and 130 are connected to the first, second and third node lamps 110, 120, To control the dimming value of the light source (not shown).

In the central control street lamp 160, at least one or more of a plurality of streetlights are preset. For example, one or more of 30 to 50 streetlights may be set.

The central control streetlight 160 includes a wireless communication unit 161, a signal processing unit 162, a lighting control unit 163, and a motion detection sensor 164. The central control streetlight 160 differs from the first embodiment in that there is no separate central control unit.

The wireless communication unit 161 of the central control streetlight 160 transmits a lighting area activation signal to the communication streetlight among the plurality of the node streetlights 110 to 150. The wireless communication unit 161 of the central control streetlight 160 performs short-range wireless communication with the communication streetlights, and the short-range wireless communication is the same as the communication method of the node streetlights.

The signal processing unit 162 of the central control streetlight 160 receives and coordinates coordinate values of an object when the motion detection sensor 164 detects an object.

The lighting control unit 163 of the central control streetlight 160 controls the dimming value of the central control streetlight 160 to light up.

The motion detection sensor 164 of the central control street lamp 160 detects the presence of an object in a preset sensing area. The object includes all moving objects such as a vehicle, a bicycle, a motorcycle and a pedestrian, and will be described as an example of a vehicle in the present embodiment. The motion detection sensor 164 transmits the coordinate value of the object to the signal processing unit 162.

As described above, when the motion sensor of one of the plurality of node streetlights recognizes a new object, communication information is transmitted to the predetermined central control streetlight 160, and the central control streetlight 160 is turned on Area activation signals to communication streetlights.

5 is a flowchart showing a control method of a streetlight according to a second embodiment of the present invention. 6 is a view showing a state in which the control of the streetlight according to the second embodiment of the present invention is implemented.

Referring to FIGS. 5 and 6, the control method of the streetlight according to the second embodiment of the present invention is as follows.

Hereinafter, the motion sensor 114 of the first node street lamp 110 detects an object among the plurality of node streetlights 110 to 150, for example, in the present embodiment. However, the present invention is not limited thereto. It is also possible that another node streetlight other than the first node streetlight 110 can sense an object, and the central control streetlight 160 can sense an object.

When the motion detection sensor 114 of the first node street lamp 110 detects an object, the coordinates of the object are input to the signal processing unit 112 of the first node streetlight 110. In step S101,

The signal processing unit 112 of the first node street lamp 110 determines whether an object exists in accordance with the inputted coordinate value (S102)

If it is determined that the object exists, the signal processing unit 112 of the first node streetlight 110 determines whether the object is a new object or an existing object (S103)

That is, if the number of coordinate values of the object inputted from the motion detection sensor 114 is larger than the number of coordinate values of the existing object stored in advance, it can be determined that the object is a new object. If the number of coordinate values of the newly input object is less than or equal to the number of coordinate values of the existing object stored in advance, it is determined whether or not the movement path of the object is continuous by referring to the coordinate value of the newly input object and the coordinate value of the previously stored object . If it is determined that there is continuity of the moving path of the object, it can be determined that the object is an existing object. If it is determined that there is no continuity of the moving path of the object, it can be determined that the object is a new object. In order to determine the continuity of the movement path, coordinate values of an object are stored and managed such that one object has at least two coordinate histories.

If it is determined that the new object is not the new object, execution is terminated to maintain the current state of the plurality of node streetlights.

On the other hand, if it is determined that the new object is the new object, the signal processing unit 112 of the first node street lamp 110 calculates the speed and the moving direction of the new object (S104)

The signal processing unit 112 of the first node street lamp 110 calculates the speed of the new object by using the distance difference of the coordinate values of the new object over time and the constant cycle time measured by the motion detection sensor 114 . Also, when the number of the new objects is several, the average value of the speeds of all sensed objects may be used, or the maximum value of the speeds of all sensed objects may be used.

 The signal processing unit 112 of the first node streetlight 110 calculates the speed and the moving direction of the new object and then calculates the size of the lighting area according to the speed.

 The signal processing unit 112 of the first node street lamp 110 may calculate the size of the lighted area using the speed and direction information of the new object and the physical distance at which the node streetlights are installed. When the size of the lighting area is calculated, the number of streetlights to be turned on is determined. The size of the lighting area can be automatically changed according to the speed of the new object.

 The signal processing unit 112 of the first node streetlight 110 generates the communication area size of the lighting area calculated in the above manner and inputs the generated communication information to the wireless communication unit 111 of the first node streetlight 110. S106)

The wireless communication unit 111 of the first node streetlight 110 transmits the communication information to the wireless communication unit 161 of the central control streetlight 160. In step S107,

That is, the wireless communication unit 111 of the first node streetlight 110 transmits the size of the lighting area as the communication information to the wireless communication unit 161 of the central control streetlight 160.

Referring to FIG. 6, A 'is communication information transmitted from the first node streetlight 110 to the central control streetlight 160, and the communication information is the size of the lighting area.

Also, the communication information may include information on a node street lamp that senses the new object.

The wireless communication unit 161 of the central control streetlight 160 determines a communication address of the communication streetlights to communicate according to the size of the lighting area and transmits a lighting area activation signal to the communication streetlights. )

 The wireless communication unit 161 of the central control streetlight 160 refers to the communication address of the communication streetlights from the communication network database.

Referring to FIG. 6, the communication streetlight is exemplified as the second and third node streetlights 120 and 130.

In FIG. 6, B 'denotes a lighting zone activation signal transmitted to the second and third node streetlights 120 and 130 as the central control streetlight 160 is a communication streetlight, and C' indicates the central control streetlight 160 And the lighting control unit 163 of the lighting control unit 163. That is, the central control streetlight 160 may transmit a lighting area activation signal to the lighting control unit 163 as well as the communication streetlight.

The second and third node streetlights 120 and 130, which receive the lighting area activation signal from the central control streetlight 160, have already set the dimming value to 100% It is in a state of being turned on. On the other hand, if there is no object existence signal input to each of the second and third node streetlights 120 and 130, it is determined that the object presence signal is in the unlit state or the set dimming value, and the dimming value is 100% And is turned on. Here, the set dimming value is in the range of 30 to 50%, for example.

The signal processing unit 112 of the first node streetlight 110 determines whether there is a lightening area activation signal input to the first node streetlight 110 after the communication information is generated at step S109.

If it is determined that there is no lighting area activation signal input to the first node streetlight 110, a lighting area activation signal is newly input to the lighting controller 113 of the first node streetlight 110 (S110)

That is, the first node street lamp 110 not only senses a new object, calculates the speed of the new object, the size of the moving direction and the lighting area, and transmits the communication information to the central control street lamp 160, Since the dimming value of the first node streetlight 110 must also be controlled, a lighting area activation signal is input to the lighting controller 113.

After the signal processing unit 112 of the first node streetlight 110 inputs the lighting area activation signal to the lighting control unit 113, it determines whether there is a pre-input object presence signal (S111).

If it is determined that the first node streetlight 110 has already input the object existence signal, it is determined that the first node streetlight 110 is already lighted, and the first node streetlight 110 is turned on (S112)

That is, if there is an object existence signal input to the first node streetlight 110, the dimming value of the first node streetlight 110 is set to 100% and is already lighted.

If it is determined that there is no object presence signal input to the first node streetlight 110, the dimming value of the first node streetlight 110 is set to 100% of the rated value and is turned on (S 113)

That is, if there is no object presence signal input to the first node street lamp 110, the first node streetlight 110 is in an unlit state or in a preset dimming value, 110 is set to the rated value of 100%. Here, the set dimming value is in the range of 30 to 50%, for example.

If it is determined in step S102 that the object exists, the signal processing unit 112 of the first node streetlight 110 inputs the first node streetlight 110 It is determined whether there is an object presence signal (S114)

When it is determined that there is no object existence signal input to the first node streetlight 110, an object absence signal is newly input to the lighting control unit 113. (S115)

In the state where the object member signal is inputted, it is determined whether there is a lighting area activation signal input to the first node streetlight 110 (S 116)

If it is determined that there is no pre-input lighting zone activation signal, the first node streetlight 110 is turned on in accordance with a preset dimming value (S117)

That is, the first node streetlight 110 is not turned off, but is turned on at the set dimming value, even if both the object existence signal and the lighting area activation signal input to the first node streetlight 110 are not present. Here, the set dimming value is in the range of 30 to 50%, for example. That is, considering the night time or the road safety situation, the streetlight can be turned on even when the object is not detected.

On the other hand, if it is determined that there is the pre-input zone activation signal in the state where the object member signal is input, the dimming value of the first node streetlight 110 is set to 100% and turned on (S118).

7 is a flowchart showing a control method of a streetlight according to a third embodiment of the present invention. 8 is a view showing a state in which the control of the streetlight according to the third embodiment of the present invention is implemented.

7 and 8, a control method of a streetlight according to a third exemplary embodiment of the present invention is a method of controlling communication between a first node streetlight 110, which senses a new object, Is different from the second embodiment in that the size of the lighting area is previously set and stored in the central control street lamp 160 and the rest of the configuration and action are similar to those of the second embodiment Only points will be described in detail.

That is, the communication information transmitted from the first node streetlight 110 to the central control streetlight 160 is a new object entry signal for notifying a new object.

When the new object entry signal is received, the central controllable streetlight 160 receives the communication start address of the communicating streetlamps to be communicated according to the size of the lit-up area, .

Referring to FIG. 7, a method of controlling a streetlight according to a third embodiment of the present invention will now be described.

 An operation sensing sensor 114 of the first node street lamp 110 detects an object among the plurality of the node streetlights 110 to 150, for example. However, the present invention is not limited thereto. It is also possible that another node streetlight other than the first node streetlight 110 can sense an object, and the central control streetlight 160 can sense an object.

When the motion detection sensor 114 of the first node street lamp 110 detects an object, the coordinate value of the object is input to the signal processing unit 112 of the first node streetlight 110 (S201)

The signal processing unit 112 of the first node street lamp 110 determines whether an object exists based on the inputted coordinate value (S202)

The signal processing unit 112 of the first node streetlight 110 determines whether the object is a new object or an existing object when it is determined that the object exists.

If it is determined that the new object is not the new object, execution is terminated to maintain the current state of the plurality of node streetlights.

The signal processing unit 112 of the first node streetlight 110 notifies the wireless communication unit 111 of the first node streetlight 110 of a new object entry signal for informing the new object (S204)

The wireless communication unit 111 of the first node streetlight 110 transmits the new object entry signal to the wireless communication unit 161 of the central control streetlight 160. In step S205,

8, A "is communication information transmitted from the first node street lamp 110 to the central control street lamp 160. Here, the communication information is the new object entry signal. Information about a node streetlamp that senses a new object may also be included.

Upon receipt of the new object entry signal, the central control street lamp 160 determines a communication address of the communication streetlights to communicate according to the size of the lighting area preset in the central control streetlight 160 (S206)

The central control street lamp 160 does not calculate the size of the lighting area separately. In the wireless communication unit 161 of the central control streetlight 160, the size of the lighting area is previously inputted and stored by the user in a manual or semi-automatic manner. The manual method is a method in which a user manually inputs the number of street lamps to be lit up as the size of the lighting area in initial setting of the system. In the semi-automatic mode, a plurality of lighting modes are preset in the system, and when the user selects one of the plurality of lighting modes at the initial setting, The number is set. That is, in the semi-operation method, the user selects lighting mode without inputting the number of streetlights to be lit. For example, the plurality of lighting modes may include a power saving mode, a normal mode, a safety mode, etc. In the power saving mode, the number of the streetlights to be lit is set to a minimum, And the user selects one of the lighting modes without directly inputting the number of the streetlights.

Accordingly, when the new object entry signal is transmitted to the central control street lamp 160, the size of the lighting area previously input and stored is used.

 The wireless communication unit 161 of the central control streetlight 160 refers to the communication address of the communication streetlights from the communication network database.

The wireless communication unit 161 of the central control streetlight 160 transmits a lighting area activation signal to the communication streetlights (S207)

Referring to FIG. 8, the communication streetlight is the second and third node streetlights 120 and 130, for example. However, the present invention is not limited to this, and the number of the communication streetlights may be varied depending on the size of the lighting area.

8, B "represents a lighting zone activation signal that the central control streetlight 160 transmits to the second and third node streetlights 120 and 130, which are communication streetlights, and C" represents the central control streetlight 160 And the lighting control unit 163 of the lighting control unit 163. That is, the central control streetlight 160 may transmit a lighting area activation signal to the lighting control unit 163 as well as the communication streetlight.

The second and third node streetlights 120 and 130, which receive the lighting area activation signal from the central control streetlight 160, have already set the dimming value to 100% It is in a state of being turned on. On the other hand, if there is no object existence signal input to each of the second and third node streetlights 120 and 130, it is determined that the object presence signal is in the unlit state or the set dimming value, and the dimming value is 100% And is turned on. Here, the set dimming value is in the range of 30 to 50%, for example.

The signal processing unit 112 of the first node streetlight 110 determines whether there is a lightening area activation signal input to the first node streetlight 110 after generating the communication information.

If it is determined that there is no on-area activation signal input to the first node streetlight 110, a new on-area activation signal is newly input to the on-off control unit 113 of the first node streetlight 110 (S209)

That is, the first node streetlamp 110 not only transmits the communication information including the new object entry signal to the central control streetlight 160, but also controls the dimming value of the first node streetlamp 110 A lighting area activation signal is input to the lighting controller 113 of the first node streetlight 110.

After the signal processing unit 112 of the first node streetlight 110 inputs the lighting area activation signal to the lighting control unit 113, it is determined whether there is a previously input object presence signal (S210)

If it is determined that the first node streetlight 110 has already input the object existence signal, it is determined that the first node streetlight 110 is already on, and the first node streetlight 110 is maintained in the on state (S211)

That is, if there is an object existence signal input to the first node streetlight 110, the dimming value of the first node streetlight 110 is set to 100% and is already lighted.

If it is determined that there is no object presence signal input to the first node street lamp 110, the dimming value of the first node streetlight 110 is set to 100%, which is the rated value, and the light is turned on (S212)

That is, if there is no object presence signal input to the first node street lamp 110, the first node streetlight 110 is in an unlit state or in a preset dimming value, 110 is set to the rated value of 100%. Here, the set dimming value is in the range of 30 to 50%, for example.

If it is determined in step S202 that the object exists, the signal processing unit 112 of the first node streetlight 110 inputs the first node streetlight 110 (S213)

If it is determined that there is no object existence signal input to the first node streetlight 110, the object object signal is newly input to the lighting control unit 113 (S214)

In the state in which the object member signal is input, it is determined whether there is a lighting area activation signal input to the first node streetlight 110. (S215)

If it is determined that there is no pre-input lighting zone activation signal, the first node streetlight 110 is turned on according to a preset dimming value (S216)

That is, the first node streetlight 110 is not turned off, but is turned on at the set dimming value, even if both the object existence signal and the lighting area activation signal input to the first node streetlight 110 are not present. Here, the set dimming value is in the range of 30 to 50%, for example. That is, considering the night time or the road safety situation, the streetlight can be turned on even when the object is not detected.

On the other hand, if it is determined that there is the pre-input ON zone activation signal in the state where the object member signal is input, the dimming value of the first node street lamp 110 is set to 100% and turned on (S217)

As described above, when the motion sensor of one of the plurality of node streetlights recognizes a new object, communication information is transmitted to the predetermined central control streetlight 160, and the central control streetlight 160 is turned on Area activation signals to communication streetlights.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

10, 110: first node street lamp 11, 111:
12, 112: Signal processing unit 13, 113:
14,114: Motion detection sensor 60,160: Central control street lamp

Claims (16)

Detecting an object by a motion detection sensor of a first node streetlight among a plurality of node streetlights;
Inputting a coordinate value of an object sensed by an operation detection sensor of the first node streetlight to a signal processing unit of the first node streetlight;
The signal processing unit of the first node street lamp determines whether the sensed object is a new object that has been newly entered or an existing object that has already been sensed and calculates a speed and a moving direction of the new object when it is determined that the object is a new object, Generating communication information including a speed and a moving direction of the mobile terminal;
Wherein the wireless communication unit of the first node streetlight transmits communication information according to the new object to a predetermined central control streetlight;
Setting communication streetlights to be communicated among the plurality of node streetlights according to communication information when the central control streetlight receives the communication information and transmitting a lighting area activation signal to the communication streetlights via wireless communication;
The communication streetlights being lit according to the received on-area activation signal;
Wherein the signal processing unit of the first node streetlight determines whether there is a lightening area activation signal input to the first node streetlight after generating the communication information, Inputting a lighting area activation signal to a lighting control section of the node streetlight;
Wherein the signal processing unit of the first node streetlamp determines whether there is the previously inputted object presence signal in the first node streetlight after inputting the lightening area activation signal, Maintaining a lighted state of the first node streetlight;
If the motion detection sensor of the first node streetlight does not detect an object, the signal processing unit of the first node streetlight judges whether there is an object existence signal input to the first node streetlight, Inputting an object presence signal;
Wherein the signal processing unit of the first node streetlight determines whether there is a lightening area activation signal pre-inputted to the first node streetlight after inputting the object member signal, and if it is determined that there is no pre- The dimming value of the first node streetlight is set to 100% when it is determined that the first node streetlight is turned on according to a predetermined setting dimming value without turning off the first node streetlight, And lighting it,
The central control unit of the central control street lamp calculates the size of the lighting area according to the speed of the new object received from the first street lamp, the direction of movement of the new object, and the distance at which the node streetlights are installed to determine the number of streetlights to communicate ,
Wherein the wireless communication unit of the central control streetlight determines a communication address of the communication streetlights according to the calculated size of the lighting area, transmits the lighting area activation signal to the communication streetlights,
The signal processing unit of the first node streetlight includes:
If the number of coordinate values of the sensed object is greater than the number of coordinate values of the existing object stored in advance,
If the number of coordinate values of the sensed object is less than or equal to the number of coordinate values of the existing object stored in advance, continuity of the object moving path is determined according to the coordinate value of the input object and the coordinate value of the existing object And judges that the object is the new object if there is no continuity of the moving path of the object. Detecting an object by a motion detection sensor of a first node streetlight among a plurality of node streetlights;
Inputting a coordinate value of an object sensed by an operation detection sensor of the first node streetlight to a signal processing unit of the first node streetlight;
Wherein the signal processing unit of the first node street lamp determines whether the sensed object is a new object that has been newly entered or an existing object that has already been sensed and calculates a speed and a moving direction of the new object when it is determined that the object is the new object, Calculating a size of a lighting area according to a moving direction and a distance in which the node streetlights are installed, and generating communication information including the size of the lighting area according to the new object;
Wherein the wireless communication unit of the first node streetlight transmits communication information according to the new object to a predetermined central control streetlight;
Setting communication streetlights to be communicated among the plurality of node streetlights according to the communication information when the central control streetlight receives the communication information and transmitting a lighting area activation signal to the communication streetlights via wireless communication; ;
The communication streetlights illuminate according to the received on-area activation signal;
Wherein the signal processing unit of the first node streetlight determines whether there is a lightening area activation signal input to the first node streetlight after generating the communication information, A step of inputting a lighting area activation signal to the lighting controller of the one-node streetlight;
Wherein the signal processing unit of the first node streetlamp determines whether there is the previously inputted object presence signal in the first node streetlight after inputting the lightening area activation signal, Maintaining a lighted state of the first node streetlight;
If the motion detection sensor of the first node streetlight does not detect an object, the signal processing unit of the first node streetlight judges whether there is an object existence signal input to the first node streetlight, Inputting an object presence signal;
Wherein the signal processing unit of the first node streetlight determines whether there is a lightening area activation signal pre-inputted to the first node streetlight after inputting the object member signal, and if it is determined that there is no pre- The dimming value of the first node streetlight is set to 100% when it is determined that the first node streetlight is turned on according to a predetermined setting dimming value without turning off the first node streetlight, And lighting it,
Wherein the wireless communication unit of the central control streetlight determines a communication address of the communication streetlights according to the size of the lighting area received from the first node streetlight and transmits the lighting area activation signal to the communication streetlights,
The signal processing unit of the first node streetlight includes:
If the number of coordinate values of the sensed object is greater than the number of coordinate values of the existing object stored in advance,
If the number of coordinate values of the sensed object is less than or equal to the number of coordinate values of the existing object stored in advance, continuity of the object moving path is determined according to the coordinate value of the input object and the coordinate value of the existing object And judges that the object is the new object if there is no continuity of the moving path of the object. Detecting an object by a motion detection sensor of a first node streetlight among a plurality of node streetlights;
Inputting a coordinate value of an object sensed by an operation detection sensor of the first node streetlight to a signal processing unit of the first node streetlight;
Wherein the signal processing unit of the first node street lamp determines whether the sensed object is a new object that has been newly entered or an existing object that has already been sensed and if it is determined that the object is a new object, Generating information;
Wherein the wireless communication unit of the first node streetlight transmits communication information according to the new object to a predetermined central control streetlight;
Setting communication streetlights to be communicated among the plurality of node streetlights according to the communication information when the central control streetlight receives the communication information and transmitting a lighting area activation signal to the communication streetlights via wireless communication; ;
The communication streetlights illuminate according to the received on-area activation signal;
Wherein the signal processing unit of the first node streetlight determines whether there is a lightening area activation signal input to the first node streetlight after generating the communication information, A step of inputting a lighting area activation signal to the lighting controller of the one-node streetlight;
Wherein the signal processing unit of the first node streetlamp determines whether there is the previously inputted object presence signal in the first node streetlight after inputting the lightening area activation signal, Maintaining a lighted state of the first node streetlight;
If the motion detection sensor of the first node streetlight does not detect an object, the signal processing unit of the first node streetlight judges whether there is an object existence signal input to the first node streetlight, Inputting an object presence signal;
Wherein the signal processing unit of the first node streetlight determines whether there is a lightening area activation signal pre-inputted to the first node streetlight after inputting the object member signal, and if it is determined that there is no pre- The dimming value of the first node streetlight is set to 100% when it is determined that the first node streetlight is turned on according to a predetermined setting dimming value without turning off the first node streetlight, And lighting it,
The wireless communication unit of the central control streetlight may further include a lighting unit configured to illuminate a lighting area different from the predetermined lighting area according to a selected one of a plurality of lighting modes including a power saving mode, Determines a communication address of the communication streetlights according to the size, and transmits the lightening area activation signal to the communication streetlights
The signal processing unit of the first node streetlight includes:
If the number of coordinate values of the sensed object is greater than the number of coordinate values of the existing object stored in advance,
If the number of coordinate values of the sensed object is less than or equal to the number of coordinate values of the existing object stored in advance, continuity of the object moving path is determined according to the coordinate value of the input object and the coordinate value of the existing object And judges that the object is the new object if there is no continuity of the moving path of the object. delete delete delete delete The method according to claim 1,
Wherein the plurality of the node streetlights are grouped by a preset number,
Wherein at least one of the central control streetlights is preset for each of the groups. delete The method according to claim 1,
Further comprising the step of setting the dimming value of the first node streetlight to 100% and lighting the streetlight if it is determined that there is no object presence signal inputted. delete delete The method according to claim 1,
Wherein the set dimming value is in the range of 30 to 50%. delete delete delete

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